Measurements of a railway line above the substrate strengthened with slurry wallsWeiterlesenMeasurements of a railway line above the substrate strengthened with slurry wallsLoad testing of micropiles in Mexico with embedded EpsilonSensors for strain sensingWeiterlesenLoad testing of micropiles in Mexico with embedded EpsilonSensors for strain sensingFoundation barrettes during load testing: strain and crack analysisWeiterlesenFoundation barrettes during load testing: strain and crack analysisFirst bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenFirst bridge in Germany with embedded strain and crack distributed sensorsDistributes strains in fibre-reinforced concrete mixed with the groundWeiterlesenDistributes strains in fibre-reinforced concrete mixed with the groundDistributed strain sensing in the concrete slab of a truss bridgeWeiterlesenDistributed strain sensing in the concrete slab of a truss bridgeThe 2nd bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenThe 2nd bridge in Germany with embedded strain and crack distributed sensorsStrains and displacements in a new type of slurry wall: research field (2)WeiterlesenStrains and displacements in a new type of slurry wall: research field (2)Strains and cracks in a new type of slurry wall: research field (1)WeiterlesenStrains and cracks in a new type of slurry wall: research field (1)Strain sensing during load tests of large-diameter piles Museum of Modern ArtWeiterlesenStrain sensing during load tests of large-diameter piles Museum of Modern ArtStrain and temperature measurements in bentonite and polymer concrete pilesWeiterlesenStrain and temperature measurements in bentonite and polymer concrete pilesSteel-concrete railway bridge: strains and cracks during load testsWeiterlesenSteel-concrete railway bridge: strains and cracks during load tests 1 2Nächste
Measurements of a railway line above the substrate strengthened with slurry wallsWeiterlesenMeasurements of a railway line above the substrate strengthened with slurry walls
Load testing of micropiles in Mexico with embedded EpsilonSensors for strain sensingWeiterlesenLoad testing of micropiles in Mexico with embedded EpsilonSensors for strain sensing
Foundation barrettes during load testing: strain and crack analysisWeiterlesenFoundation barrettes during load testing: strain and crack analysis
First bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenFirst bridge in Germany with embedded strain and crack distributed sensors
Distributes strains in fibre-reinforced concrete mixed with the groundWeiterlesenDistributes strains in fibre-reinforced concrete mixed with the ground
Distributed strain sensing in the concrete slab of a truss bridgeWeiterlesenDistributed strain sensing in the concrete slab of a truss bridge
The 2nd bridge in Germany with embedded strain and crack distributed sensorsWeiterlesenThe 2nd bridge in Germany with embedded strain and crack distributed sensors
Strains and displacements in a new type of slurry wall: research field (2)WeiterlesenStrains and displacements in a new type of slurry wall: research field (2)
Strains and cracks in a new type of slurry wall: research field (1)WeiterlesenStrains and cracks in a new type of slurry wall: research field (1)
Strain sensing during load tests of large-diameter piles Museum of Modern ArtWeiterlesenStrain sensing during load tests of large-diameter piles Museum of Modern Art
Strain and temperature measurements in bentonite and polymer concrete pilesWeiterlesenStrain and temperature measurements in bentonite and polymer concrete piles
Steel-concrete railway bridge: strains and cracks during load testsWeiterlesenSteel-concrete railway bridge: strains and cracks during load tests